Last night I tried to see Ganymede and its shadow going over Jupiter, but the weather didn’t cooperate. The seeing was very bad, and there where a lot of thin high clouds in the sky. Just before Ganymede “touched” the edge of Jupiter’s disk, it was overcast. On the image.......follow this link to read the full story

I regularly get e-mails from people that want to know more about the digital camera set-up I use. Today I have published an article in my equipment section about the two cameras’ I use(d) , the Nikon Coolpix 4500 and the Nikon Coolpix 775. In the article you will find a photo album containing 16 images in which you can see how the Nikon Coolpix 4500 is connected to the telescope, using digital camera adaptors from Vixen and ScopeTronix. You will also find some links to some images and the digital_astro yahoo group.

Today I added a detailed observing log to the Solar system section, including an image of Venus and the Moon, and a big image of the three-day-old moon. Follow this link to read the full report and have a look at the images. There is also detailed data on the digital images (shutter-speed, aperture etc) and the telescope used for the observing session.

Today I added some digital Moon pics to my site showing a 9-day-old moon. The images are large (in size and bytes) so allow a few seconds to load. You can navigate through the observing report using hyperlinks. In the observing report you will also find detailed information on how the images where made (equipment, exposure time, camera settings etc.) Just follow this link to get there.

On Monday the 22nd of February I had a marathon observing session. I started with Venus and the Moon at 5 pm (UT), then did some deepsky observing, and ended with Jupiter at 4 am (UT) the next morning. I did all the observing from my backyard, using the 8-inch Klevtzov-Cassegrain on equatorial mount. Here is a detailed report with some digital pics of

the Moon (and Venus) and Jupiter, and some sketches of some double stars, a galaxy and a carbon star. Enjoy!

Venus and The Moon
At 5 pm the Moon and Venus could be seen very high in the south-western sky. It was wonderful to see these two bright objects together. Here’s a picture to give you an impression.

In the next two months Venus will climb higher and higher. In the second half of March and the first half of April, all the five brightest planets will be visible at the same time. Then Venus will be lined up along the ecliptic together with Mercury, Mars, Jupiter and Saturn. In June Venus will transit the Sun for the first time since 1882. So keep an eye on this bright planet in the next few months! After I set up my telescope I had a closer look at the Moon.

As you can see, Mare Crisium lay on the terminator. Above mare Crisium you can see the outlines of Cleomedes. Mare Humboldtianum and Mare Marginis are also visible. To the south of Mare Crisium we can see Langrenus, Vendelinus (and Lame), Petavius (and Vallis Palitschz) and Furnerius. I only pointed out the bigger features. Using the Rukl Moon Atlas you can detect many more!

The Deepsky
About 7pm (UT) the Moon had disappeared and it was time for a night of deepsky observing. To warm up I first visited a few “old friends” like the Pleiades, M 42, Orion’s Belt, M 44, and M 35. After that I started to hunt down a few new objects, 3 double stars, a galaxy, 3 globular clusters and a carbon star. I sketched the field of view of the double stars and the carbon star, to verify them next day (just to be sure it where the one’s I was looking for). I also made a sketch of the galaxy and it’s surrounding star-field, to see if I got the orientation and its size right. The sketches are all included in this report.

1. Zeta Cancri
This is a triple star in Cancer. I could only detect split two components (already at 100x). I could not split the AB pair. They have a separation of 0.8”, while the AB and C components are separated by 5.7”. The colour of both components was yellow. They are easy to locate. In Gemini, go from Castor to Pollux and extend this line with two times the same length. Then you are in the area of Zeta Cancri. With its distinct colour, you cannot miss it.

Zeta Cancri, 133x, FOV 22’

2. Iota Cancri
This one is also easy to locate, Just have a look in your star atlas at the constellation of Cancer. There is one line of the constellation that stretches north, passing M 44. At the end of this line you will find Iota Cancri. I never had seen it before, but when my telescope came across it, using a 62.5 magnification I was stunned. It almost looks like Albireo, a bright yellow, accompanied by a somewhat fainter blue star.

Iota Cancri, 62x FOV 47’

3. Algieba (Gamma Leonis)
This wonderful double star lies at the centre of “the Sickle” in the constellation of Leo, 8 degrees north-northeast of Regulus (Alpha Leonis). Both companions are bright yellow, with magnitudes of 2.2 and 3.5. the separation is 4.4”. The B component lies in a position angle of 127 degrees.

Algieba, 133x, FOV 22’

4. NGC 2903
From my backyard, which is heavily light polluted, I cannot see too much galaxies. In an article in sky and telescope I read that NGC 2903 was even brighter than M 65 and M66, but for an unknown reason was not included in the Messier catalogue. I decided to go for it. Again, this object is easy tot locate, because there are some bright stars in the Lion’s head that will guide you to NGC 2903. In the lion’s head, locate 17 Epsilon Leonis. From there go about three degrees to the west to 4 Lambda Leonis. NGC 2903 lies only 2 degrees south of this star.

I immediately spotted the galaxies bright core, without averted vision. Using averted vision it showed up as an elongated, faint smudge of light. Apart from the bright core, I could not detect any details. Later, when comparing my sketch with my sky atlas, I noted that it was even bigger. The two stars south of this galaxy, actually lie right near the southern tip of NGC 2903.

NGC 2903, 100x, FOV 29’

5. M 53, M 3 and M 13
Now it was time for some globular clusters. First I had a look at M 53, which lies only 1 degree to the north-west of Alpha Coma Berenices. With the 8-inch telescope at 80x I only saw it as a nebulous smudge of light. At 166x I could partially resolve the stars around the edges of the cluster, but I had to use averted vision to do so.

Next on the list was M 3, lying about halfway between Arcturus in Bootes and Cor Caroli in Canes Venatici. You immediately see the difference with M 53. M 3 is a big bright globular cluster. At 100x I already resolved stars on the edges of the cluster. When using averted vision, it became even bigger and brighter. At 166x to 200x, individual stars could be seen almost to the middle of the cluster. Now it was time for M 13.

M 13 is the best (in the northern hemisphere). It is located in Hercules, halfway between Zeta and Eta Herculis in “the Keystone”. At 100x I could detect some arms (or chains) of stars coming out of the cluster. At 166 it looks like a giant spider. The cluster is resolved right to the middle, but there is a glow of many more unresolved stars.

My advice, view at these three globulars in the same order I did. The views get better and better this way!

6. La Superba
In Canes Venatici lies La Superba ( Y Canum Venaticorum, variable star), a carbon Star. Carbon stars are cool red giants with a lot of carbon molecules in their atmosphere, causing absorption of blue light. That’s why these stars look “deep red”. La Superba again is easy to spot. From 12 Alpha Canum Venaticorum ( Cor Carolis) go to 8 beta Canum Venaticorum (Chara). From Chara go about north-northeast. There you will find the “red” star. At 100x there where only four other stars in the field of view (about 30’. The limiting magnitude was about 12 to 12.5 at that moment. The colour was deep orange at the moment. It really stood out from its surroundings.

La Superba, 100x, FOV 29’

Jupiter
I ended my night around 4am with a quick look at Jupiter. All four moons stood to one site of the planet. Here’s an image that should give you an idea. Io is closest to Jupiter but very hard to detect on the image. It had been a great night of observing.

Last night was again a great night to observe. It started at 5 pm UT yesterday with the Moon and Venus, together in the south-western sky. I first aimed the sky-window and 15x80 binoculars at the moon. Looking with two eyes, the moon can be see in 3-D. Wonderful! After that I first took some pictures from

the moon and Venus together. After that I switched to the telescope and shot a few pics. Here are the first results.

The Moon and Venus in the south-western sky, 23-02-2004, 17:29 UT

Overview of the moon, 23-02-2004, 17:50 UT

I have to do some stacking and image processing and will be back with the final results!

From 10pm till 4am it was deep sky time. The night sky was very transparent. Again, as yesterday, I could detect the cancer constellation and M 44 using my naked eyes. This is not what I normally get from my light polluted backyard. I observed some double and multiple stars (zeta and iota Cancri, Algieba and Cor Caroli), NGC 2903, a very bright galaxy in Leo, three bright globular clusters (M 3, M 13 and M 53), and a carbon star, Y Canes Venaticorum (La Superba). A detailed report with sketches and finder charts will follow.

I ended the night with Jupiter. The images I got where very clear, though there was some moisture in the air. I took some pictures with my digital camera. I have to stack and process them before they go onto the website, but here is an unprocessed one to start with:

Sunday night, I observed M 44 from my own backyard, using 15x80 binoculars, mounted on the sky window. This is a true binocular object. The conditions where good (for two hours). I could see all the ........... follow this link to read the full story

Friday night I visited Sourbrot (Belgium), one of my favourite dark sky sites, together with 7 other observers from the local astronomy group. As I got out of the car, I immediately noticed that the sky was very transparent. The constellation of cancer was completely visible to the naked eye, with at its heart the big star cluster M 44. I got out my 7x50 binoculars and ........... follow this link to read the full story